Connection setup between a mobile terminal and a moving base station based on joint movement detection

ABSTRACT

A method in a base station is disclosed for determining connection establishment between the base station and a mobile terminal, where the base station is moving. When the base station receives a first connection request, the base station refrains from establishing a connection between the base station and the mobile terminal. When the base station receives a second connection request from the mobile terminal, the base station determines whether or not to establish the connection between the base station and the mobile terminal.

TECHNICAL FIELD

Embodiments herein relate generally to a mobile terminal, a base stationand a wireless communication system and methods therein. In particularembodiments relate to determining whether or not a mobile terminalshould connect to a moving base station.

BACKGROUND

Mobile terminals for communication such as wireless devices are alsoknown as e.g. User Equipments (UE), wireless terminals and/or mobilestations. Mobile terminals are enabled to communicate wirelessly in awireless communications system or cellular communication network,sometimes also referred to as a cellular radio system or cellularnetworks. The communication may be performed e.g. between two mobileterminals, between a terminal and a regular telephone and/or between aterminal and a server via a Radio Access Network (RAN) and possibly oneor more core networks, comprised within the cellular communicationsnetwork.

Mobile terminals may further be referred to as mobile telephones,cellular telephones, laptops, or tablet computers with wirelesscapability, just to mention some further examples. The mobile terminalsin the present context may be, for example, portable, pocket-storable,hand-held, computer-comprised, or vehicle-mounted mobile devices,enabled to communicate voice and/or data, via the RAN, with anotherentity, such as another terminal or a server.

The wireless communication system covers a geographical area which isdivided into cell areas, wherein each cell area being served by a basestation, e.g. a Radio Base Station (RBS), which sometimes may bereferred to as e.g. “eNB”, “eNodeB”, “NodeB”, “B node”, Base TransceiverStation (BTS), or Access Point (AP), depending on the technology andterminology used. The base stations may be of different classes such ase.g. macro eNodeB, home eNodeB or pico base station, based ontransmission power and thereby also cell size. A cell is thegeographical area where radio coverage is provided by the base stationat a base station site. One base station, situated on the base stationsite, may serve one or several cells. Further, each base station maysupport one or several communication technologies. The base stationscommunicate over the air interface operating on radio frequencies withthe terminals within range of the base stations. In the context of thisdisclosure, the expression Downlink (DL) is used for the transmissionpath from the base station to the mobile station. The expression Uplink(UL) is used for the transmission path in the opposite direction i.e.from the mobile station to the base station.

In 3rd Generation Partnership Project (3GPP) Long Term Evolution (LTE),base stations, which may be referred to as eNodeBs or even eNBs, may bedirectly connected to one or more core networks.

Universal Mobile Telecommunications System (UMTS) is a third generationmobile communication system, which evolved from the Global System forMobile Communications (GSM), and is intended to provide improved mobilecommunication services based on Wideband Code Division Multiple Access(WCDMA) access technology. UMTS Terrestrial Radio Access Network (UTRAN)is essentially a radio access network using wideband code divisionmultiple access for mobile terminals. The 3GPP has undertaken to evolvefurther the UTRAN and GSM based radio access network technologies.

3GPP LTE radio access standard has been written in order to support highbitrates and low latency both for uplink and downlink traffic. All datatransmission is in LTE controlled by the radio base station.

In a wireless communication system, when a mobile terminal is connectedto a base station, it is important, from a performance point of view,that the mobile terminal is connected to the most suitable base station.Often the most suitable base station is the one from which the mobileterminal receives the best signal quality and/or strongest receivedsignal strength. Better signal quality and/or strongest received signalstrength in general means that a higher data rate can be supported, thatthe delay is smaller, and/or in general that the relevant Quality ofService (QoS) is better. When the wireless communication system isheavily loaded, it may not be enough to only consider the Signal qualityand/or received signal strength as there simply will not be sufficientavailable resources. These resources may either be in an access linkbetween the mobile terminal and the base station, and/or it may be inthe wireless communication system connecting different base stations toeach other.

In practise, to ensure that the mobile terminal is connected to the mostsuitable base station, the mobile terminal may scan for signals fromdifferent base stations within radio range and then try to connect tomost suitable base station. Here, most suitable base station may forinstance be the base station that is expected to provide the best QoSfor the mobile terminal.

As the mobile terminal moves, it may find that the base station it ispresently connected to is no longer the most suitable, and therefore themobile terminal may be handed over from one base station to another.This Handover (HO) procedure target is that the mobile terminal isalways connected to the most suitable base station. However, the HOprocedure comes at a cost as the mobile terminal needs to performmeasurements, which are of no use in case a HO will not be performed,and it also takes resources from the wireless communication system toperform the handover.

In addition, for certain applications with stringent requirements a HOmay be hard to perform without causing a glitch or interruption in thecommunication. For this reason, it may actually be preferred that themobile terminal remains connected to one base station for a longer timethan to continuously perform handovers between different base stationsjust to ensure that the mobile terminal is connected to the very bestone. Specifically, in case the mobile terminal is moving fast and thecoverage area of the base station is small it is not a good solution toconnect to another base station as the time duration between HOs in thiscase may be expected to be rather small. To address this problem, thewireless communication system should preferably have at least some cellsthat are large, i.e., macro cells, which fast moving mobile terminalsmay connect to, whereas slowly moving or stationary mobile terminals mayconnect to smaller cells, for instance micro- or pico cells. In case themobile terminal is in idle mode and performs cell reselection similaraspects apply.

Today, some mobile terminals support several Radio Access Technologies(RAT), and in particular cellular access standards such as WCDMA and LTEas well as Wireless Local Area Network (WLAN) access are supported. Thismeans that when the mobile terminal is scanning for being connected tothe most suitable base station it may be even more challenging as thebase station may either be a WLAN Access Point (AP) or a base station ina cellular communications network. Typically the WLAN AP will have arather limited coverage area, and therefore it is not suitable for themobile terminal to connect to the WLAN AP if the mobile terminal ismoving fast. In fact, in order to save power, the mobile terminal maydetermine not to scan for WLAN APs when the mobile terminal is movingfast because it may then result in two HOs, i.e. one to and one from theWLAN AP, and the mobile terminal is only able to stay connected to theWLAN AP for a very short time.

As mentioned above, to ensure that the mobile terminal is connected tothe most suitable base station, the mobile terminal may scan for signalsfrom different base stations within radio range trying to connect to themost suitable one. However, as scanning consumes power, scanning forsmall cells such as e.g. WLAN APs are typically avoided unlessnecessary. In particular this may be the preferred setting in case it isknown that the mobile terminal is moving at relatively high speed.

A problem is that when also the base stations are moving in the wirelesscommunication system it is difficult to decide which mobile terminalthat shall connect to which base station.

SUMMARY

It is therefore an object of embodiments herein to provide a way ofimproving the performance of a wireless communication system.

According to a first aspect of embodiments herein the object is achievedby a method in a base station for determining connection establishmentbetween the base station and a mobile terminal where the base station ismoving.

When the base station receives a first connection request, the basestation refrains from establishing a connection between the base stationand the mobile terminal.

When the base station receives a second connection request from themobile terminal, the base station determines whether or not to establishthe connection between the base station and the mobile terminal.

According to a second aspect of embodiments herein the object isachieved by a method in a mobile terminal for assisting the base stationin determining connection establishment between the mobile terminal anda base station, wherein the base station is moving.

The mobile terminal transmits a first connection request to the basestation. If a connection is not established within a time period, themobile terminal transmits a second connection request to the basestation.

At least one of the first connection request and the second connectionrequest comprises a mobility indicator, indicating a speed of the mobileterminal.

According to a third aspect of embodiments herein the object is achievedby a base station adapted to determine connection establishment betweenthe base station and a mobile terminal, where the base station ismoving.

The base station comprises a control unit adapted to when the basestation is moving, receive a first connection request from the mobileterminal and to refrain from establishing the connection between thebase station and the mobile terminal when the first connection requestis received.

The control unit is further adapted to when the base station is moving,receive a second connection request from the mobile terminal anddetermine whether or not to establish the connection between the basestation and the mobile terminal when the second connection request isreceived.

According to a fourth aspect of embodiments herein the object isachieved by a mobile terminal adapted to determine connectionestablishment between the mobile terminal and a base station, where thebase station is moving.

The mobile terminal comprises a control unit for transmit a firstconnection request to the base station.

If a connection has not been established within a time period, thecontrol unit is further adapted to transmit a second connection requestto the base station.

At least one of the first connection request and the second connectionrequest includes a mobility indicator, indicating a speed of the mobileterminal.

According to a fifth aspect of embodiments herein the object is achievedby a method in a communication system for determining connectionestablishment between a base station and a mobile terminal where thebase station is moving.

The mobile terminal transmits, and the base station receives a firstconnection request.

When the base station receives the first connection request, the basestation refrains from establishing a connection between the base stationand the mobile terminal.

The mobile terminal transmits, and the base station receives a secondconnection request. At least one of the first connection request and thesecond connection request includes a mobility indicator, indicating aspeed of the mobile terminal.

When the base station receives the second connection request, the basestation determines whether or not to establish the connection betweenthe base station and the mobile terminal based on mobility indicator.

According to a sixth aspect of embodiments herein the object is achievedby a computer program product comprising computer program code forexecuting the method in the base station when said computer program codeis executed by a programmable control unit of the base station.

According to a seventh aspect of embodiments herein the object isachieved by a non-transitory computer readable medium having storedthereon a computer program product comprising computer program code forexecuting the method in the base station when said computer program codeis executed by a programmable control unit of the base station.

According to an eighth aspect of embodiments herein the object isachieved by a computer program product comprising computer program codefor executing the method in the mobile terminal when said computerprogram code is executed by a programmable control unit of the mobileterminal.

According to a ninth aspect of embodiments herein the object is achievedby a non-transitory computer readable medium having stored thereon acomputer program product comprising computer program code for executingthe method in the mobile terminal when said computer program code isexecuted by a programmable control unit of the mobile terminal.

Since the base station is able to refrain the mobile terminal fromconnecting to the base station on the first connection attempt butdetermine whether or not to establish the connection between the basestation and the mobile terminal when a second connection request isreceived, the risk that the base station will allow mobile terminalsthat do not move jointly with the base station to connect to the basestation is reduced. This will lead to a more efficient handover processin the wireless communication system since fewer handovers will beperformed in the wireless communication system.

An advantage with embodiments herein is that less signaling is needed inthe wireless communication system since fewer connection requests aresent.

Another advantage with embodiments herein is that the channel conditionsfor the mobile terminal are improved since the mobile terminal will beconnected to the most suitable base station.

A further advantage the mobile terminal will remain connected to thebase station during longer time and fewer handovers are needed since themobile terminal will be connected to the most suitable base station.

A further advantage with embodiments herein is that power consumption ofthe mobile terminal is decreased since it is connected to the basestation with the best channel conditions.

A further advantage is that the base station may determine connectionestablishment depending on whether or not the mobile terminal isstationary in relation to the base station.

BRIEF DESCRIPTION OF THE DRAWINGS

Examples of embodiments herein are described in more detail withreference to attached drawings in which:

FIG. 1 is a schematic block diagram illustrating the wirelesscommunication system;

FIG. 2 is a flowchart depicting embodiments of a method in the basestation;

FIG. 3 is a flowchart depicting embodiments of a method in the mobileterminal;

FIG. 4 is a signaling diagram depicting embodiments of a method in thewireless communication system;

FIG. 5 is a schematic block diagram illustrating the base stationaccording to some embodiments; and

FIG. 6 is a schematic block diagram illustrating the mobile terminalaccording to some embodiments.

DETAILED DESCRIPTION

As part of developing embodiments herein, some problems will first beidentified and discussed.

The inventors have realized that there exist problems with existingsolutions for which it is determined whether a connection to a certainbase station is suitable or not based on the speed of the mobileterminal and knowledge of the size of the cell covered by the basestation. For example, in case also the base station is moving, this willnot give the desired result concerning if it is suitable for a certainmobile terminal to connect to the base station. In particular this isthe case when the mobile terminal and the base station are movingtogether, which for instance would be the case if both were located on amoving vehicle.

Prior art algorithms for managing HO between different base stationsmight not work satisfactory, and in particular the idea that a fastmoving mobile terminal should not scan for WLAN APs may in fact cause asignificant reduction in performance. Furthermore, even for the approachthat scanning should not be performed until it is determined that thepresent base station no longer can provide the required QoS implies aproblem. The reason is that when the mobile terminal is moving withine.g. a bus or a train, channel conditions between the mobile terminaland a base station placed on the bus or train are typically not verygood. First, the channel will be fast fading which makes reception morechallenging. Second, the signal will be significantly attenuated whengoing through the wall or roof of the bus or train so that the receivedsignal strength will be weak. This means that the transmitted power ofthe mobile terminal will be high and thus the power consumption willalso be high.

It should be noted that when the term handover or HO is used herein thatdoes not necessarily mean a handover as defined in the 3GPPspecifications. The term handover or HO is used in a broader sense andmay also refer to when ongoing traffic or later arriving traffic of themobile terminal is steered from a 3GPP network to a WLAN or vice versa.

A HO is typically triggered when the current connection between the basestation and the mobile terminal is considered not to be sufficientlygood, e.g. below a threshold, or because a load for that particular basestation is too high, e.g. above a threshold. The HO may be triggered byeither the base station or the mobile terminal. The need for a HO may bepredicted based on how fast the mobile terminal is moving and thecoverage area of the base station. Because a HO requires signalling andother resources and increases power consumption, it is desirable tolimit the number of HOs. One approach for achieving this is to have alayered network were mobile terminals moving at high speed are connectedto base stations with large cells, whereas slowly moving and stationaryusers are connected to base stations with small cells. Specifically,when the mobile terminal is moving and needs to perform a HO, the mobileterminal may perform measurements and report a signal quality fordifferent base stations to the wireless communication system. Thewireless communication system, or a network node in the wirelesscommunication system, may then decide which is the most suitable targetbase station for the HO. The base station may then take into accountthat if the mobile terminal is moving, it may be preferable to connectto the base station supporting a larger area although there may be otherbase stations with better signal quality but with smaller coverage area.Such a decision is quite easily made when the base stations arestationary.

However, there is an increasing number of moving base stations as moreand more vehicles such as e.g. buses and trains are equipped with WLAN.For this scenario, algorithms for HO which are designed for stationarybase stations are not always working well.

FIG. 1 depicts an example of a wireless communication system 100according to a scenario in which embodiments herein may be implemented.The wireless communication system 100 is a wireless communicationnetwork such as an LTE, WCDMA, GSM network, WLAN network, or any otherwireless communication system.

A mobile terminal 110 operates in the wireless communication system 100.The mobile terminal 110 may e.g. be a mobile phone a wireless device, auser equipment, a mobile wireless terminal, a wireless terminal, a WLANstation, a computer such as e.g. a laptop, a Personal Digital Assistants(PDA)s or a tablet computer with wireless capability, or any other radionetwork unit capable to communicate over a radio link in the wirelesscommunication system 100. Please note the term mobile terminal 110 usedin this document also covers other wireless devices such as Machine tomachine (M2M) devices, sometimes referred to as “machine typecommunication” (MTC) devices.

The wireless communication system 100 comprises at least one basestation 120 which is movable. The geographical area where radio coverageis provided from the base station 120 will be referred to as a cell. Thebase station 120 may be a transmission point, a radio base station, aNode B, an eNB, an eNodeB, a WLAN AP, an Home Node B, an Home eNode B orany other network node capable to serve the mobile terminal 110 in thewireless communication system 100.

As stated above the base station 120 is movable. The base station 120may e.g. be placed on a vehicle 130 such as a car, a bus, a boat, anairplane or a train. In this figure, the base station 120 is located onthe outside of a bus mainly for illustration purposes. Typically, thebase station 120 would be located inside the moving vehicle, althoughthe disclosed ideas are applicable regardless of whether the basestation 120 is located in the inside of the vehicle or on the outside.The base station 120 preferably has a relatively small coverage areaonly serving mobile terminals 110 in the vicinity of the vehicle 130.The base station 120 may preferably have an antenna within the vehicle130 for serving the mobile terminals such as the mobile terminal 110within the vehicle 130. The base station 120 may further have anexternal antenna e.g. on the roof of the vehicle 130, such as forcommunicating with other nodes in the wireless communication system 100.

There are an increasing number of small cells, in particular small cellsserved by WLAN APs that are not stationary but instead movable, e.g.installed on buses, on trains, or in some other way such that the cellis far from being stationary. Embodiments herein provide algorithms forperforming handover and cell selection and/or reselection, when the basestation 120 is not stationary. An example of when embodiments herein areapplicable is in a situation when the base station 120 is deployed onboard of the vehicle 130 as shown in FIG. 1. When the vehicle 130 makesa stop e.g., at a traffic light, and the mobile terminal 110 is not inthe bus but in the vicinity of the bus, e.g. in another vehicle. In thiscase the mobile terminal 110 may pick up a signal level from the basestation 120 and try to connect to it. Since the mobile terminal 110 isin another vehicle than the base station 120 it will probably move inanother direction than the base station 120 and a set up connection tothe base station 120 will therefore be lost. According to embodimentsherein, it will be decided that the mobile terminal 110 should notconnect to the base station 120 in that case. This decision may e.g. bebased on the relative speed between the mobile terminal 110 and the basestation 120. This will be positive with regards to signalling, powerconsumption, user experience, etc.

Embodiments will be exemplified in a non-limiting description.

Example embodiments of a method in the base station 120 for determiningconnection establishment between the base station 120 and the mobileterminal 110, will now be described with reference to a flowchartdepicted in FIG. 2. As mentioned above the base station 120 is moving.

The method comprises the following actions, which actions may be takenin any suitable order. The actions may also be combined. Dashed lines ofsome boxes in FIG. 2 indicate that this action is not mandatory.

Action 201

The base station 120 receives a first connection request from the mobileterminal 110. The first connection request indicates that the mobileterminal 110 wants to do a handover or a reselection to the base station120.

Action 202

As described above it is most favorable for the mobile terminal 110 toconnect to the moving base station 120 when the mobile terminal 110 andthe base station 120 are moving jointly. Therefore, the base station 120will not establish the connection when the first connection request isreceived. First the base station 120 may establish if the base station120 and the mobile 110 terminal move jointly.

When the base station 120 receives the first connection request, thebase station 120 refrains from establishing a connection between thebase station 120 and the mobile terminal 110. This is to see if a secondconnection request will be received within a time period. This may beperformed by transmitting a NACK to the mobile terminal 110 or by nottransmitting anything at all. The base station 120 then waits for asecond connection request from the mobile terminal 110.

Action 203

Since the connection between the base station 120 and the mobileterminal 110 has not been established, the mobile terminal 110 istransmitting the second connection request to the base station 120.

The second connection request from the mobile terminal 110 is receivedby the base station 120.

An optional mobility indicator may be received from the mobile terminal110. The mobility indicator may be received in the first connectionrequest or in the second connection request indicating a speed of themobile terminal 110. The mobility indicator may be a single bitindicating if the mobile terminal 110 is moving or if it is stationary.The mobility indicator may also indicate the absolute speed of themobile terminal 110 and its direction.

In one alternative of this embodiment, the mobile terminal 110 has abit-indicator indicating one value if the mobile terminal 110 is movingand another value if the mobile terminal 110 is not moving. Highergranularity of the mobility indicator is also possible. If the mobilityindicator comprises of, or is represented with a plurality of bits, thebits may represent different speed values, e.g. one value for no speed,0 km/h. For example, a value for slow speed, may e.g. be below 5 km/h, avalue for medium speed, may e.g. be below 30 km/h, and a value for highspeed, may e.g. be above 30 km/h. Even higher granularities are possibleto indicate more exact speeds.

The mobility indicator may be dynamically updated depending on the speedof the mobile terminal 110. Even though to have a dynamically changingmobility indicator depending on the current speed of the mobile terminal110 may require more complexity in the mobile terminal 110, it is moreaccurate as it will work well for the case when the mobile terminal 110is used on the vehicle 130 and the mobile terminal 110 will onlyindicate that it is moving when it is actually moving. There may be somefiltering of the mobile terminal's 110 speed with regards to changingthe mobility indicator. For example if the vehicle 130 is doing a shortstop at a traffic light, the mobile terminal 110 may still indicate thatit is moving to avoid a HO will be performed to a base station outsidethe vehicle 130.

Action 204

In some embodiments, the base station 120 may determine an absolutespeed of the base station 120. The absolute speed may be used below todetermine if the mobile terminal 110 and the base station 120 are movingjointly, which will be used when determining whether or not to establishthe connection between the base station 120 and the mobile terminal 110.

The absolute speed of the base station 120 may e.g. be determined usingGPS, or any other suitable means.

Action 205

The base station 120 may determine an absolute speed of the mobileterminal 110. The absolute speed may be used below to determine if themobile terminal 110 and the base station 120 are moving jointly, whichwill be used when determining whether or not to establish the connectionbetween the base station 120 and the mobile terminal 110.

The absolute speed of the mobile terminal 110 may e.g. be determined byusing triangulation. This involves at least 3 stationary base stations.The triangulation result may then be communicated to the mobile basestation 120 via a network interface.

The absolute speed of the mobile terminal 110 may be determined becausewhen the mobile terminal 110 is close to the base station 120 that it ismoving along with, connecting to the base station 120 is verybeneficial. In particular, the faster the mobile terminal 110 is moving,the more beneficial it becomes as a connection to a stationary basestation is more and more challenging the faster the mobile terminal 110is moving.

Action 206

The base station 120 may determine a time period between the firstconnection request and the second connection request. The time periodmay be used below to determine if the mobile terminal 110 and the basestation 120 are moving jointly, which will be used when determiningwhether or not to establish the connection between the base station 120and the mobile terminal 110.

This may be determined by starting a timer, when first connectionrequest is received. Since the radio coverage of the base station 120 isrelatively small, it is unlikely that the mobile terminal 110 sends twoconnection requests, or at least that such a second connection requestis successfully received by the base station 120, if the relative speedbetween the mobile terminal 110 and the base station 120 is relativelylarge that is, if they do not move jointly.

Action 207

The base station 120 may determine a parameter indicating a relativespeed between the base station 120 and the mobile terminal 110 may bedetermined. The parameter indicating the relative speed may bedetermined by calculating the difference of the speed of the basestation 120 and the speed of the mobile terminal 110. The relative speedmay also be estimated by measuring for instance the Received SignalStrength Indicator (RSSI) of the signal at different connectionrequests. When the RSSI is similar for different connection requests,the relative speed can be estimated to be relatively low, whereas whenthere is a large variation of the RSSIs for different connectionrequests, the relative speed can be estimated to be relatively high.Thus, said parameter indicating the relative speed between the basestation 120 and the mobile terminal 110 may be, or be based on, adifference in RSSI values between the first and the second connectionrequest.

Action 208

When the second connection request is received by the base station 120,the base station 120 determines whether or not to establish theconnection between the base station 120 and the mobile terminal 110. Thedetermination may be performed in a variety of ways which will beexemplified below.

It may be determined to establish the connection between the basestation 120 and the mobile terminal 110 when the absolute speed of thebase station 120 is above a first threshold. The first threshold maye.g. be 30 km/h.

It may be determined to establish the connection between the basestation 120 and the mobile terminal 110 when the absolute speed of themobile terminal 110 is above a second threshold. The second thresholdmay e.g. be 30 km/h.

It may be determined to establish the connection between the basestation 120 and the mobile terminal 110 when the time period between thefirst connection request and the second connection request exceeds athird threshold. The third threshold may e.g. be on the order of 1second.

The time period may be a fixed time period or it may be dependent on thespeed of the base station 120 such that when the base station 120 is notmoving, the base station 120 may set the time period to a low valuewhich would then make the mobile terminal 110 do a HO to the basestation 120 shortly after the base station 120 has been detected. If thebase station 120 is moving the base station 120 may set the time periodto a larger value, for example on the order of 1 s, so that a mobileterminal 110 which is not moving jointly with the base station 120 willnot do a HO to the base station 120.

In another embodiment the base station 120 measures a signal strength ofthe mobile terminal 110 and only accepts connection requests from themobile terminal 110 if the signal strength from the mobile terminal 110has been stable during a second time period, for example 1s. The basestation 120 may then assume that the relative speed between the basestation 120 and the mobile terminal 110 is low.

One way of realizing this embodiment is that the base station 120 willonly grant the second connection request from the mobile terminal 110when a rate of change of a measured signal strength of the mobileterminal 110 is below a threshold for a third time period. Otherwise thebase station 120 may refrain from granting the second connection requestfrom the mobile terminal 110 for example by rejecting the connectionrequest from the mobile terminal 110.

Another way of realizing this embodiment is that the mobile terminal 110will be allowed to connect to the base station 120 if the measuredsignal strength is above a threshold for fourth time period, for example1s.

It may be determined to establish the connection between the basestation 120 and the mobile terminal 110 when the parameter indicatingthe relative speed indicates that the relative speed between the basestation 120 and the mobile terminal 110 is below a fourth threshold, forexample 6 km/h corresponding walking speed.

For embodiments in which a mobility indicator is sent from the mobileterminal 110, it may be determined to establish the connection betweenthe base station 120 and the mobile terminal 110 when the mobilityindicator indicates that the speed of the mobile terminal 110 is above afifth threshold, for example 30 km/h.

Action 209

After deciding to establish the connection between the base station 120and the mobile terminal 110, the connection may be established by thebase station 120 by transmitting a connection grant to the mobileterminal 110 and the handover is then performed.

Example embodiments of a method in the mobile terminal 110 for assistinga base station 120 in determining connection establishment between thebase station 120 and the mobile terminal 110, will now be described withreference to a flowchart depicted in FIG. 3. As mentioned above the basestation 120 is moving.

The method comprises the following actions, which actions may be takenin any suitable order. The actions may also be combined.

Action 301

When the mobile terminal 110 detects the base station 120 and wants todo a HO to the base station, the mobile terminal 110 transmits a firstconnection request to the base station 120. The mobile terminal 110 thenwaits for a connection grant from the base station 120.

Action 302

If the connection request grant is not received, and the connection isnot established within a time period, the mobile terminal 110 transmitsa second connection request to the base station 120.

In at least one of the first connection request and the secondconnection request a mobility indicator may be comprised. The mobilityindicator indicates a speed of the mobile terminal 110.

The mobility indicator may comprise one bit indicating if the speed ofthe mobile terminal 110 is above or below a speed threshold.

The mobility indicator may comprise a plurality of bits representing aplurality of different speed ranges.

The mobility indicator may also include information about in whichdirection the mobile terminal 110 is moving.

The mobile terminal 110 them waits for a connection grant from the basestation 120.

Example embodiments of the wireless communication system 100 fordetermining connection establishment between a base station 120 and amobile terminal 110 will now be described with reference to signallingdiagram depicted in FIG. 4. As mentioned above the base station 120 ismovable.

The method comprises the following actions, which actions may be takenin any suitable order. The actions may also be combined.

Action 401

The mobile terminal 110 is continuously measuring the signal qualityfrom neighbor base stations 120, to find a potential handover candidate.The base station 120 is detected when the mobile terminal 110 can decodebroadcast information from the base station 120. When the mobileterminal 110 detects the base station 120 and wants to perform ahandover the mobile terminal 110 transmits a first connection request tothe base station 120, i.e. the base station 120 receives the firstconnection request from the mobile terminal 110.

Action 402

It is most favorable to set up the connection between the mobileterminal 110 and the base station 120 when they are moving jointly. Anexample of when a mobile terminal and a base station move jointly iswhen they are both located on a bus or on a train that moves. Animportant property of such a situation is that the relative speedbetween the mobile terminal 110 and the base station 120 is relativelysmall compared with the absolute speed of any of the mobile terminal 110and the base station 120. A way to determine if they are moving jointlywill be described below. When the first connection request is receivedby the base station 120, the base station 120 refrains from establishinga connection between the base station 120 and the mobile terminal 110.This may be performed by transmitting a NACK to the mobile terminal 110or by not transmitting anything at all. The base station 120 is thenwaiting for a second connection request from the mobile terminal 110.

Action 403

Since the connection between the base station 120 and the mobileterminal 110 has not been established, the mobile terminal 110 transmitsa second connection request to the base station 120. The time periodbetween the first connection request and the second connection requestmay be on the order of one second.

The base station 120 receives the second connection request from themobile terminal 110. Since the radio coverage area of the base station120 is small, it may be an indication that the mobile terminal 110 andthe base station 120 move jointly if the mobile terminal 110 can hearthe base station 120 constantly during the time period betweentransmitting the first connection request and the second connectionrequest.

In at least one of the first connection request and the secondconnection request a mobility indicator is included. The mobilityindicator indicates a speed of the mobile terminal 110. The mobilityindicator may be a single bit indicating if the mobile terminal 110 ismoving or if it is stationary. The mobility indicator may also indicatethe absolute speed of the mobile terminal 110 and its direction.

Action 404

When the second connection request is received by the base station 120,the base station 120 determines whether or not to establish theconnection between the base station 120 and the mobile terminal 110. Thebase station 120 may e.g. determine to establish the connection betweenthe base station 120 and the mobile terminal 110 when it is determinedthat the base station 120 and the mobile terminal moves jointly. Thebase station 120 may determine based in the mobility indicator whetheror not to establish the connection between the base station 120 and themobile terminal 110. If the base station 120 knows its own absolutespeed it may determine a relative speed between the mobile terminal 110and the base station 120 based on the received mobility indicator.

How the determination may be performed is further exemplified above inaction 208.

To perform the method actions to determine connection establishmentbetween the base station 120 and a mobile terminal 110, described abovein relation to FIG. 2, the base station 120 may comprises the followingarrangement depicted in FIG. 5. As mentioned above the base station 120is movable.

In some embodiments the base station 120 comprises a receiving module510 adapted to receive signals transmitted from the mobile terminal 110.The receiving module 510 may be part of a transceiver module 520. Thetransceiver module 520 may also transmit signals to mobile terminal 110.An antenna 530 may be connected to the transceiver module 520.

The base station 120 comprises a control unit 540 adapted to, when thebase station 120 is moving, receive the first connection request fromthe mobile terminal 110, e.g. via the receiving module 510.

The control unit 540 is further adapted to determine whether or not toestablish the connection between the base station 120 and the mobileterminal 110. The control unit 540 may e.g. comprise a determinationmodule 550 adapted to determine whether or not to establish theconnection between the base station 120 and the mobile terminal 110. Thecontrol unit 540 is further adapted to refrain from establishing theconnection between the base station 120 and the mobile terminal 110 whenthe first connection request is received. The control unit 540 may e.g.comprise a refraining module 560 adapted to refrain from establishingthe connection between the base station 120 and the mobile terminal 110when the first connection request is received.

The control unit 540 is further adapted to, when the base station 120 ismoving, receive a second connection request from the mobile terminal110, e.g. via the receiving module 510. The control unit 540 is furtheradapted to determine whether or not to establish the connection betweenthe base station 120 and the mobile terminal 110 when the secondconnection request is received. For example, the determination module550 may be further adapted to determine whether or not to establish theconnection between the base station 120 and the mobile terminal 110 whenthe second connection request is received.

The control unit 540 is adapted to establish the connection between thebase station 120 and the mobile terminal 110 when it has been determinedthat this should be done. For this purpose, as illustrated in FIG. 5,the control unit 540 may comprise an establishing module 570 adapted toestablish said connection.

The control unit 540 may further be adapted to determine an absolutespeed of the base station 120. For example, the determination module 550may further be adapted to determine the absolute speed of the basestation 120.

The control unit 540 may further be adapted to establish the connectionbetween the base station 120 and the mobile terminal 110 when theabsolute speed of the base station 120 is above a first threshold. Forexample, the establishing module 570 may be adapted to establish theconnection between the base station 120 and the mobile terminal 110 whenthe absolute speed of the base station 120 is above the first threshold.

The control unit 540 may further be adapted to determine an absolutespeed of the mobile terminal 110. For example, the determination module550 may further be adapted to determine an absolute speed of the mobileterminal 110.

The control unit 540 may further be adapted to establish the connectionbetween the base station 120 and the mobile terminal 110 when theabsolute speed of the mobile terminal 110 is above a second threshold.For example, the establishing module 570 may be adapted to establish theconnection between the base station 120 and the mobile terminal 110 whenthe absolute speed of the mobile terminal 110 is above the secondthreshold.

The control unit 540 may further be adapted to determine a time periodbetween the first connection request and the second connection request.For example, the determination module 550 may be adapted to determinesaid time period between the first connection request and the secondconnection request.

The control unit 540 may further be adapted to establish the connectionbetween the base station 120 and the mobile terminal 110 when the timeperiod between the first connection request and the second connectionrequest exceeds a third threshold. For example the establishing module570 may be adapted to establish the connection between the base station120 and the mobile terminal 110.

The control unit 540 may further be adapted to determine a parameterindicating a relative speed between the base station 120 and the mobileterminal 110. For example the determination module 550 may be adapted todetermine the parameter indicating a relative speed between the basestation 120 and the mobile terminal 110.

The control unit 540 may further be adapted to establish the connectionbetween the base station 120 and the mobile terminal 110 when theparameter indicates that the relative speed between the base station 120and the mobile terminal 110 is below a fourth threshold. For example theestablishing module 570 may be adapted to establish the connectionbetween the base station 120 and the mobile terminal 110 when theparameter indicates that the relative speed between the base station 120and the mobile terminal 110 is below a fourth threshold.

The control unit 540 may further be adapted to receive a mobilityindicator from the mobile terminal 110, indicating a speed of the mobileterminal 110. For example the control unit 540 may be adapted to receivea mobility indicator from the mobile terminal 110, indicating a speed ofthe mobile terminal 110 via the receiving module 510.

The control unit 540 may further be adapted to establish the connectionbetween the base station 120 and the mobile terminal 110 when themobility indicator indicates that the speed of the mobile terminal 110is above a fifth threshold. For example the establishing module 570 maybe adapted to establish the connection between the base station 120 andthe mobile terminal 110 when the mobility indicator indicates that thespeed of the mobile terminal 110 is above a fifth threshold.

The mobility indicator may be included in the first connection requestor the second connection request.

In some embodiments, the control unit 540 may be implemented as adedicated application-specific hardware unit. Alternatively, saidcontrol unit 540, or parts thereof, may be implemented with programmableand/or configurable hardware units, such as but not limited to one ormore Field-Programmable Gate Arrays (FPGAs), processors, ormicrocontrollers. Thus, the control unit 540 may be a programmablecontrol unit. The control unit 540 and a memory module 580 may performthe actions of the determination module 550 and the establishing module570 described above.

The base station 120 may further comprise the memory module 580comprising one or more memory units. The memory module 570 may compriseinstructions executable by the programmable control unit 540.

The memory module 580 may be arranged to be used to store, data,configurations, schedulings, and applications to perform the methodsherein when being executed in the base station 120, e.g. by the controlunit 540.

To perform the method actions assisting a base station 120 indetermining connection establishment between the base station 120 and amobile terminal 110, where the base station 120 is moving describedabove in relation to FIG. 3, the mobile terminal 110 may comprises thefollowing arrangement depicted in FIG. 6.

In FIG. 6, the mobile terminal 110 comprises a transmitting module 610adapted to transmit signals to the base station 120. The transmittingmodule 610 may be part of a transceiver module 620. The transceivermodule 620 may also receive signals from the base station 120. Anantenna 630 may be connected to the transceiver module 620.

The mobile terminal 110 comprises a control unit 640 adapted to transmita first connection request to the base station 120, for example via thetransmitting module 610.

The control unit 640 is further adapted to if, a connection has not beenestablished within a time period, transmit a second connection requestto the base station 120, e.g. via the transmitting module 610.

According to some embodiments, the above-mentioned mobility indicator isincluded in at least one of the first connection request and the secondconnection request, indicating the speed of the mobile terminal 110.

The mobility indicator may comprise one bit indicating if the speed ofthe mobile terminal 110 is above or below a speed threshold.

The mobility indicator may comprise, or be represented with, a pluralityof bits and thereby represent a plurality of different speed ranges.

In some embodiments, the control unit 640 may be implemented as adedicated application-specific hardware unit. Alternatively, saidcontrol unit 640, or parts thereof, may be implemented with programmableand/or configurable hardware units, such as but not limited to one ormore FPGAs, processors, or microcontrollers. Thus, the control unit 640may be a programmable control unit. The mobile terminal 110 may furthercomprise a memory module 650 comprising one or more memory units. Thememory module 650 may comprise instructions executable by theprogrammable control unit 640.

The memory module 650 may be arranged to be used to store, data,configurations, schedulings, and applications to perform the methodsherein when being executed in the mobile terminal 110.

The embodiments herein handling the process of determining connectionestablishment may be implemented through one or more processors, such asthe control unit 540 in the base station 120 and the control unit 640 inthe mobile terminal 110 depicted in FIG. 5 and FIG. 6, together withcomputer program code for performing the functions and actions of theembodiments herein. The program code mentioned above may also beprovided as a computer program product, for instance in the form of adata carrier carrying computer program code for performing theembodiments herein when being loaded into the in the base station 120.One such carrier may be in the form of non-transitory computer-readablemedium, such as a CD ROM disc, a memory stick, flash memory, etc. Thecomputer program code may furthermore be provided as pure program codeon a server and downloaded to the base station 120 or the mobileterminal 110.

When using the word “comprise” or “comprising” it shall be interpretedas non-limiting, i.e. meaning “consist at least of”.

The embodiments herein are not limited to the above-described preferredembodiments. Various alternatives, modifications and equivalents may beused. Therefore, the embodiments should not be taken as limiting thescope of the invention, which is defined by the appending claims.

1: A method in a wireless communication system, for determiningconnection establishment between a base station and a mobile terminalwherein the base station is moving, the method comprising: transmittingby the mobile terminal, and receiving by the base station, a firstconnection request; in the base station, when receiving the firstconnection request, refraining from establishing a connection betweenthe base station and the mobile terminal; transmitting by the mobileterminal, and receiving by the base station, a second connection requestwherein at least one of the first connection request and the secondconnection request includes a mobility indicator, indicating a speed ofthe mobile terminal; in the base station, when receiving the secondconnection request, determining whether or not to establish theconnection between the base station. 2: A method in a base station fordetermining connection establishment between the base station and amobile terminal, wherein the base station is moving, the methodcomprising: when receiving a first connection request, refraining fromestablishing a connection between the base station and the mobileterminal; and when receiving a second connection request from the mobileterminal, determining whether or not to establish the connection betweenthe base station and the mobile terminal. 3: The method according toclaim 2, further comprising: determining an absolute speed of the basestation; and wherein determining whether or not to establish theconnection between the base station and the mobile terminal furthercomprises: establishing the connection between the base station and themobile terminal when the absolute speed of the base station is above afirst threshold. 4: The method according to claim 2, further comprising:determining an absolute speed of the mobile terminal; and whereindetermining whether or not to establish the connection between the basestation and the mobile terminal further comprises: establishing theconnection between the base station and the mobile terminal when theabsolute speed of the mobile terminal is above a second threshold. 5:The method according to claim 2, further comprising: determining a timeperiod between the first connection request and the second connectionrequest; and wherein determining whether or not to establish theconnection between the base station and the mobile terminal furthercomprises: establishing the connection between the base station and themobile terminal when the time period between the first connectionrequest and the second connection request exceeds a third threshold. 6:The method according to claim 2, further comprises: determining aparameter indicating a relative speed between the base station and themobile terminal; and wherein determining whether or not to establish theconnection between the base station and the mobile terminal furthercomprises: establishing the connection between the base station and themobile terminal when the parameter indicates that the relative speedbetween the base station and the mobile terminal is below a fourththreshold. 7: The method according to claim 2, comprising: receiving amobility indicator from the mobile terminal, which mobility indicatorindicates a speed of the mobile terminal, and wherein determiningwhether or not to establish the connection between the base station andthe mobile terminal further comprises: establishing the connectionbetween the base station and the mobile terminal when the mobilityindicator indicates that the speed of the mobile terminal is above afifth threshold. 8: The method according to claim 7, wherein themobility indicator is included in the first connection request or in thesecond connection request. 9: A method in a mobile terminal forassisting a base station 120 in determining connection establishmentbetween the mobile terminal and a base station, where the base stationis moving, the method comprising: transmitting a first connectionrequest to the base station; and if a connection is not establishedwithin a time period, transmitting a second connection request to thebase station; wherein at least one of the first connection request andthe second connection request comprises a mobility indicator, indicatinga speed of the mobile terminal. 10: The method according to claim 9,wherein the mobility indicator comprises one bit indicating if the speedof the mobile terminal is above or below a speed threshold. 11: Themethod according to claim 9, wherein the mobility indicator comprises aplurality of bits and represents a plurality of different speed ranges.12: A base station adapted to determine connection establishment betweenthe base station and a mobile terminal, wherein the base station ismovable, the base station comprises a control unit adapted to: receive afirst connection request from the mobile terminal; refrain fromestablishing the connection between the base station and the mobileterminal when the first connection request is received; receive a secondconnection request from the mobile terminal; and determine whether ornot to establish the connection between the base station and the mobileterminal when the second connection request is received. 13: The basestation according to claim 12, wherein the control unit is furtheradapted to: determine an absolute speed of the base station; determinewhether or not to establish the connection between the base station; andestablish the connection between the base station and the mobileterminal when the absolute speed of the base station is above a firstthreshold. 14: The base station according to claim 12, wherein thecontrol unit is further adapted to: determine an absolute speed of themobile terminal; determine whether or not to establish the connectionbetween the base station; and establish the connection between the basestation and the mobile terminal when the absolute speed of the mobileterminal is above a second threshold. 15: The base station according toclaim 12, wherein the control unit is further adapted to: determine atime period between the first connection request and the secondconnection request; determine whether or not to establish the connectionbetween the base station; and establish the connection between the basestation and the mobile terminal when the time period between the firstconnection request and the second connection request exceeds a thirdthreshold. 16: The base station according to claim 12, wherein thecontrol unit is further adapted to: determine a parameter indicating arelative speed between the base station and the mobile terminal;determine whether or not to establish the connection between the basestation; and establish the connection between the base station and themobile terminal when the parameter indicates that the relative speedbetween the base station and the mobile terminal is below a fourththreshold. 17: The base station according to claim 12, wherein thecontrol unit is further adapted to: receive a mobility indicator fromthe mobile terminal, indicating a speed of the mobile terminal;determine whether or not to establish the connection between the basestation; and establish the connection between the base station and themobile terminal when the mobility indicator indicates that the speed ofthe mobile terminal is above a fifth threshold. 18: The base stationaccording to claim 17, wherein the mobility indicator is included in thefirst connection request or the second connection request. 19: A mobileterminal adapted to assist a base station in determining connectionestablishment between the mobile terminal and a base station, whereinthe base station is movable, the mobile terminal comprises control unitadapted to: transmit a first connection request to the base station; ifa connection has not been established within a time period, transmit asecond connection request to the base station; and at least one of thefirst connection request and the second connection request includes amobility indicator, indicating a speed of the mobile terminal. 20: Themobile terminal according to claim 19, wherein the mobility indicatorcomprises one bit indicating if the speed of the mobile terminal isabove or below a speed threshold. 21: The mobile terminal according to19, wherein the mobility indicator comprises a plurality of bits andrepresents a plurality of different speed ranges.
 22. (canceled) 23: Anon-transitory computer readable storage medium having stored thereon acomputer program product comprising computer program code for executinga method when said computer program code is executed by a programmablecontrol unit of the base station, wherein the method is in a basestation and is for determining connection establishment between the basestation and a mobile terminal, wherein the base station is moving, themethod comprising: when receiving a first connection request, refrainingfrom establishing a connection between the base station and the mobileterminal; and when receiving a second connection request from the mobileterminal, determining whether or not to establish the connection betweenthe base station and the mobile terminal.
 24. (canceled) 25: Anon-transitory computer readable medium having stored thereon a computerprogram product comprising computer program code for executing a methodwhen said computer program code is executed by a programmable controlunit of the mobile terminal, wherein the method is in a mobile terminaland is for assisting a base station in determining connectionestablishment between the mobile terminal and a base station, where thebase station is moving, the method comprising: transmitting a firstconnection request to the base station; and if a connection is notestablished within a time period, transmitting a second connectionrequest to the base station; wherein at least one of the firstconnection request and the second connection request comprises amobility indicator, indicating a speed of the mobile terminal.